Toward single-molecule nanomechanical mass spectrometry
暂无分享,去创建一个
M. Roukes | X. L. Feng | M. Hanay | W. Hiebert | A. Naik | M. L. Roukes | A. K. Naik | M. S. Hanay | W. K. Hiebert | M. S. Hanay | A. K. Naik | W. K. Hiebert | X. L. Feng
[1] Albert J R Heck,et al. Investigation of intact protein complexes by mass spectrometry. , 2004, Mass spectrometry reviews.
[2] X. Xie,et al. Probing Gene Expression in Live Cells, One Protein Molecule at a Time , 2006, Science.
[3] Andrew Cleland,et al. Thermomechanical noise limits on parametric sensing with nanomechanical resonators , 2005 .
[4] Jerry Grey,et al. A High Intensity Source for the Molecular Beam. Part I. Theoretical , 1951 .
[5] Ron Lifshitz,et al. Nonlinear Dynamics of Nanomechanical and Micromechanical Resonators , 2009 .
[6] Harold G. Craighead,et al. Virus detection using nanoelectromechanical devices , 2004 .
[7] G. Casella,et al. Statistical Inference , 2003, Encyclopedia of Social Network Analysis and Mining.
[8] Michael L. Roukes,et al. Dynamic range of nanotube- and nanowire-based electromechanical systems , 2005 .
[9] M. Roukes,et al. Sensitive detection of nanomechanical motion using piezoresistive signal downmixing , 2005 .
[10] D. Gerlich. Inhomogeneous RF Fields: A Versatile Tool for the Study of Processes with Slow Ions , 2007 .
[11] R. Aebersold,et al. Mass Spectrometry and Protein Analysis , 2006, Science.
[12] Mehran Mehregany,et al. Monocrystalline silicon carbide nanoelectromechanical systems , 2001 .
[13] M. Roukes,et al. Efficient electrothermal actuation of multiple modes of high-frequency nanoelectromechanical resonators , 2007 .
[14] J. Gaumet,et al. Electrospray mass spectrometry of , 2000, Journal of the American Society for Mass Spectrometry.
[15] J. M. Worlock,et al. Measurement of the quantum of thermal conductance , 2000, Nature.
[16] S. Anderson,et al. Simplified radio-frequency generator for driving ion guides, traps, and other capacitive loads , 2000 .
[17] M. Mann,et al. Electrospray ionization for mass spectrometry of large biomolecules. , 1989, Science.
[18] J. Henion,et al. The determination of protein, oligonucleotide and peptide molecular weights by ion-spray mass spectrometry. , 1988, Rapid communications in mass spectrometry : RCM.
[19] A. Heck,et al. Detection of intact megaDalton protein assemblies of vanillyl‐alcohol oxidase by mass spectrometry , 2008, Protein science : a publication of the Protein Society.
[20] Joseph A. Loo,et al. Electrospray ionization mass spectrometry: a technology for studying noncovalent macromolecular complexes , 2000 .
[21] S. Banerjee,et al. Large-Area Synthesis of High-Quality and Uniform Graphene Films on Copper Foils , 2009, Science.
[22] K. Jensen,et al. An atomic-resolution nanomechanical mass sensor. , 2008, Nature Nanotechnology.
[23] M. Roukes,et al. Ultrasensitive nanoelectromechanical mass detection , 2004, cond-mat/0402528.
[24] Jacqueline Krim,et al. Foundations of Nanomechanics: From Solid-State Theory to Device Applications , 2004 .
[25] B. Thomson,et al. Efficiency of nano-electrospray ionization , 2005, Journal of the American Society for Mass Spectrometry.
[26] Philip Xiao-Li Feng. Ultra-High Frequency Nanoelectromechanical Systems with Low-Noise Technologies for Single-Molecule Mass Sensing , 2007 .
[27] H. Craighead,et al. Attogram detection using nanoelectromechanical oscillators , 2004 .
[28] D. J. Douglas,et al. Collisional focusing effects in radio frequency quadrupoles , 1992, Journal of the American Society for Mass Spectrometry.
[29] M. Roukes,et al. A self-sustaining ultrahigh-frequency nanoelectromechanical oscillator. , 2008, Nature nanotechnology.
[30] M. Roukes. Nanoelectromechanical systems face the future , 2001 .
[31] M. D. LaHaye,et al. Cooling a nanomechanical resonator with quantum back-action , 2006, Nature.
[32] H. Postma,et al. Atomic-scale mass sensing using carbon nanotube resonators. , 2008, Nano letters.
[33] S. Eom,et al. Crystallization, molecular replacement solution, and refinement of tetrameric β‐amylase from sweet potato , 1995 .
[34] A. Heck. Native mass spectrometry: a bridge between interactomics and structural biology , 2008, Nature Methods.
[35] A. Bachtold,et al. Ultrasensitive mass sensing with a nanotube electromechanical resonator. , 2008, Nano letters.
[36] S. Masmanidis,et al. Signal amplification through bifurcation in nanoresonators , 2011 .
[37] C. Dass. Fundamentals of Contemporary Mass Spectrometry , 2007 .
[38] J. Fenn,et al. Electrospray interface for liquid chromatographs and mass spectrometers. , 1985, Analytical chemistry.
[39] W. Slichter. a High-Intensity Source for the Molecular Beam. , 1951 .
[40] S. Anderson,et al. Simple radio-frequency power source for ion guides and ion traps , 1997 .
[41] M. Roukes,et al. Zeptogram-scale nanomechanical mass sensing. , 2005, Nano letters.
[42] J. Fenn,et al. Electrospray ion source: another variation on the free-jet theme , 1984 .
[43] C. Ng. State-Selected and State-to-State Ion−Molecule Reaction Dynamics , 2002 .
[44] Erik Lucero,et al. Quantum ground state and single-phonon control of a mechanical resonator , 2010, Nature.
[45] R. Aebersold,et al. Mass spectrometry-based proteomics , 2003, Nature.
[46] D. W. Allan,et al. Statistics of atomic frequency standards , 1966 .
[47] M. Roukes,et al. Ultra-sensitive NEMS-based cantilevers for sensing, scanned probe and very high-frequency applications. , 2007, Nature nanotechnology.
[48] B. Chui,et al. Single spin detection by magnetic resonance force microscopy , 2004, Nature.
[49] A. Fleischman,et al. Epitaxial growth of 3C–SiC films on 4 in. diam (100) silicon wafers by atmospheric pressure chemical vapor deposition , 1995 .
[50] O. Hansen,et al. Mass and position determination of attached particles on cantilever based mass sensors. , 2007, The Review of scientific instruments.
[51] A. Cleland. Foundations of nanomechanics , 2002 .
[52] S. Manalis,et al. Weighing of biomolecules, single cells and single nanoparticles in fluid , 2007, Nature.
[53] M. Roukes,et al. Ultimate limits to inertial mass sensing based upon nanoelectromechanical systems , 2003, physics/0309075.
[54] 利久 亀井,et al. California Institute of Technology , 1958, Nature.
[55] J. Loo. Observation of large subunit protein complexes by electrospray ionization mass spectrometry , 1995 .
[56] Albert J R Heck,et al. Ion mobility mass spectrometry of proteins and protein assemblies. , 2010, Chemical Society reviews.
[57] N. Friedman,et al. Stochastic protein expression in individual cells at the single molecule level , 2006, Nature.
[58] Carlito B. Lebrilla,et al. External ion source FTMS instrument for analysis of high mass ions , 1989 .
[59] Matthew Glenn Blain,et al. Towards the hand-held mass spectrometer: design considerations, simulation, and fabrication of micrometer-scaled cylindrical ion traps , 2004 .
[60] M. Roukes,et al. Fabrication of high frequency nanometer scale mechanical resonators from bulk Si crystals , 1996 .
[61] I. Chernushevich,et al. Collisional cooling of large ions in electrospray mass spectrometry. , 2004, Analytical chemistry.
[62] B. Camarota,et al. Approaching the Quantum Limit of a Nanomechanical Resonator , 2004, Science.
[63] S. Girvin,et al. Strong dispersive coupling of a high-finesse cavity to a micromechanical membrane , 2007, Nature.
[64] Yu-Chong Tai,et al. Microfluidic platform for liquid chromatography-tandem mass spectrometry analyses of complex peptide mixtures. , 2005, Analytical chemistry.
[65] Byron P. Roe,et al. Probability and Statistics in Experimental Physics , 1992 .
[66] P. Mitchell. In the pursuit of industrial proteomics , 2003, Nature Biotechnology.
[67] M. Roukes,et al. Noise processes in nanomechanical resonators , 2002 .
[68] Thomas P. Burg,et al. Suspended microchannel resonators for biomolecular detection , 2003 .